Precise temperature control is essential for optimizing performance and ensuring high-quality outcomes in chemical process engineering. The Unistat range of temperature control systems provides accurate temperature management and stable process conditions, supporting research laboratories, pilot plants, and kilo labs worldwide.
Image Credit: Peter Huber Kältemaschinenbau SE
The Unistat principle has been adapted into various system designs, enabling precise temperature control across different process scales.
This article explores the methodology for calculating the optimal Unistat system for your specific chemical process.
Introduction
In industrial chemical processes, maintaining the right temperature is crucial for efficiency, safety, and product quality. A reliable heating and cooling system is essential, as process engineers must carefully balance yield, quality, productivity, and safety.
Through years of collaboration with chemical and pharmaceutical process engineers, the Unistat range has been continuously developed and refined. This partnership has kept Unistats at the forefront of temperature control technology, making them ideal for chemical reactors, bioreactors, autoclaves, reaction blocks, calorimeters, and distillation plants—from mini to pilot-scale operations.
Thanks to their advanced thermodynamic properties, Unistats deliver exceptional performance even under rapidly changing process conditions. Their adaptability and precision have been demonstrated in over 200 case studies, proving their ability to maintain stability and control across diverse applications.
To fully grasp these capabilities, it's essential to understand the energy balance of a reactor system…
Download the full article now to learn more
This information has been sourced, reviewed and adapted from materials provided by Peter Huber Kältemaschinenbau SE.
For more information on this source, please visit Peter Huber Kältemaschinenbau SE.